CN111109781A - Adjustable ring - Google Patents

Abstract

An adjustable ring includes a master ring having an inner ring peripheral surface, an outer ring peripheral surface, a front surface, a rear surface, a through hole formed from the space surrounded by the inner ring peripheral surface, and a slit formed on the inner ring peripheral surface, and at least one adjusting joint is stored on the inner peripheral surface of the ring, the adjusting joint comprises an inner peripheral surface of the adjusting joint, an outer peripheral surface of the adjusting joint and a spring arranged on the outer peripheral surface of the adjusting joint, the spring pushes towards an inner wall surface of the outer peripheral surface of the ring, the at least one adjusting joint is connected with the main ring and can be adjusted to a pressing-in position or a rest position, in the pressed-in position, the at least one adjustment joint is completely received in the slot in the inner peripheral surface of the ring, in the rest position, the spring extends the at least one adjustment joint beyond the ring inner peripheral surface in a decompressed state.

Description

Adjustable ring

Technical Field

The invention is used in the field of ring design, in particular to a ring with adjustable size, which is directly worn without adjustment before a user wears the ring, and the ring can automatically make proper adjustment according to the size of the finger of the user.

Background

Existing ring designs require additional re-sizing of the ring if the ring is not sized for the user's finger. Rings that do not fit the size of the user's fingers have many disadvantages. If too tight, the user may feel uncomfortable with the fingers. If too loose, the display jewel (usually above the ring) may not appear well fitting from side to side. If the ring is too loose, the ring is easy to lose. Therefore, it is important that the ring fits the size of the user's finger. The size of the ring is adjusted by using the elasticity of metal and then expanding the ring to a proper size. There are other ring designs that use a structural mechanism to adjust the size. However, these rings are usually adjusted by the user before wearing, and are relatively complex in structure and not easy to adjust.

Disclosure of Invention

The invention provides a size-adjustable ring, which can be automatically adjusted according to the size of the finger of a user by directly wearing the ring without the need of previous adjustment.

The technical scheme adopted by the invention is as follows:

an adjustable ring, comprising: a master ring having an inner ring peripheral surface, an outer ring peripheral surface, a front surface, a rear surface, a through hole formed by surrounding the ring from the inner ring peripheral surface, a slit formed on the inner ring peripheral surface, and at least one adjusting joint housed in the inner ring peripheral surface, the adjusting joint including an inner adjusting joint peripheral surface, an outer adjusting joint peripheral surface, and a spring disposed on the outer adjusting joint peripheral surface, the spring being urged toward an inner wall surface of the outer ring peripheral surface, the at least one adjusting joint being connected to the master ring to be moved to a pressed-in position or a rest position; in the pressed-in position, the at least one adjustment joint is completely received in a slot in the inner peripheral surface of the ring, and in the rest position, the spring extends the at least one adjustment joint beyond the inner peripheral surface of the ring in a decompressed state.

The other specifically adopted technical scheme of the invention is as follows:

an adjustable ring, comprising: a master ring having an inner ring peripheral surface, an outer ring peripheral surface, a front surface, a rear surface, a through hole formed from a space surrounded by the inner ring peripheral surface, a slit formed on the inner ring peripheral surface, and a secondary adjustment joint housed in the inner ring peripheral surface, the secondary adjustment joint including an inner adjustment joint peripheral surface, an outer adjustment joint peripheral surface, a spring provided on the outer adjustment joint peripheral surface, the spring being urged toward an inner wall surface of the outer ring peripheral surface, the secondary adjustment joint being connected to the master ring to be moved to a pressed-in position or a rest position; in the pressed-in position, the secondary adjustment joint is completely received in a slot in the inner peripheral surface of the ring, and in the rest position, the spring extends the secondary adjustment joint beyond the inner peripheral surface of the ring in a decompressed state.

The above summary of the present invention is provided to illustrate the concept of the present invention, and not to limit the scope of the present invention.

Drawings

Fig. 1 is a perspective view of an adjustable ring according to the preferred embodiment.

Figure 2 is a side view of the primary ring showing the location of the slits in accordance with the preferred embodiment.

Fig. 3 is another perspective view of the adjustable ring, showing the location of the slits, in accordance with the preferred embodiment.

Fig. 4 is a perspective view of the adjustment joint of the adjustable ring according to the preferred embodiment.

Fig. 5 is a perspective view of the spring of the adjustable ring according to the preferred embodiment.

Fig. 6 is a perspective view of the spring and adjustment knuckle of the adjustable ring according to the preferred embodiment.

Fig. 7 is a side view of the adjustable ring according to the preferred embodiment.

Fig. 8 is a partial perspective side view of the adjustable ring showing the position of the adjustment knuckles and springs in the pressed-in position, according to the preferred embodiment.

Fig. 9 is a partial perspective side view of the adjustable ring showing the positions of the adjustment knuckles and springs in the rest position in accordance with the preferred embodiment.

Fig. 10 is a side elevational view of an alternative adjustable ring according to the present invention.

Fig. 11 is a perspective view of an alternative spring according to the present invention.

Fig. 12 is an alternative perspective view of the spring inserted in the adjustment joint according to the present invention.

Fig. 13 is a perspective view of an adjustable ring according to a secondary embodiment.

Figure 14 is a side view of a primary ring according to a secondary embodiment showing the location of a slit.

Fig. 15 is another perspective view of the adjustable ring according to the secondary embodiment, showing the location of the slits.

Fig. 16 is a side view of the spring and secondary adjustment joint of the adjustable ring according to the secondary embodiment.

Fig. 17 is a side view of the adjustable ring according to the secondary embodiment, showing the secondary adjustment knuckles and the position of the spring in the pressed-in position.

Fig. 18 is a side view of the adjustable ring according to the secondary embodiment, showing the secondary adjustment knuckles and the position of the springs in the rest position.

Detailed Description

The following examples are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention

Fig. 1 shows an adjustable ring 10 according to the preferred embodiment, which mainly comprises a master ring 20, at least one adjustment knuckle 30 and a spring 40. Master ring 20 has an inner ring peripheral surface 210, an outer ring peripheral surface 220, a front surface 230, a back surface 240, and a through-hole 250 formed by the space enclosed by the inner ring peripheral surface. The back surface 240 is disposed opposite the front surface 230.

Figure 2 shows a cross-sectional side view of a primary ring 20 according to a preferred embodiment. The ring inner peripheral surface 210 includes a slot 260, the slot 260 being disposed in the upper half of the ring inner peripheral surface 210. The inner wall surface 270 of the ring outer peripheral surface 220 is exposed through the slits 260 provided in the ring inner peripheral surface 210.

Fig. 3 shows another perspective view of the adjustable ring 10 according to the preferred embodiment. The visible slot 260 may provide space for stowing the adjustment joint 30.

Fig. 4A and 4B show perspective views of the adjustment joint 30 according to the preferred embodiment. The adjustment joint 30 has an adjustment joint inner peripheral surface 310 and an adjustment joint outer peripheral surface 320. The adjustment joint 30 also includes a slot 350 and an insert housing 370 for receiving the spring 40. The groove 350 is disposed on the outer peripheral surface 320 of the adjustment joint.

Fig. 5 shows a perspective view of the spring 40 of the adjustable ring 10 according to the preferred embodiment. The spring 40 further includes a connecting portion 410 and a pushing portion 420. The spring 40 is formed from a piece of sheet metal into a V-shape 430 by connecting the connecting portion 410 to the pushing portion 420. When the connection portion 410 or the push portion 420 is pressed, the spring 40 may be bent. Fig. 6 shows that the connecting portion 410 of the spring 40 is inserted in the insertion housing 370 of the adjustment joint 30. According to this embodiment, the insert housing 370 is rectangular and may fit a rectangular spring 40.

Fig. 7-9 show side views of the adjustable ring 10 according to a preferred embodiment. According to a preferred embodiment, at least one adjustment joint 30 is housed in a slot 260 in the ring inner peripheral surface 210. At least one of the adjustment joints 30 is symmetrically disposed along the medial axis 280 of the primary ring 20, and according to the preferred embodiment, the number of adjustment joints is doubled to provide more balanced and stable support for the fingers. At least one adjusting joint 30 is pivotally connected to main ring 20 to allow at least one adjusting joint 30 to be moved to a depressed or rest position. One end of the adjusting joint 30 is connected with the main ring 20 through a simple slot and bolt structure. The pushing portion 420 of the spring 40 pushes toward the inner wall surface 270. Fig. 8 shows that when in the pressed-in position, the spring 40 is compressed to pivotally move the adjustment knuckle 30 such that the adjustment knuckle 30 is fully received in the slot 260 of the inner peripheral surface 210 of the ring. The connecting portion 410 has the same arcuate shape as the adjustment joint 30 so that the spring 40 when compressed can be properly and completely received in the groove 350 of the adjustment joint 30. Fig. 9 shows that when in the rest position, the uncompressed spring 40 naturally pushes against the inner wall surface 270 due to its material elasticity, extending the adjustment joint 30 beyond the ring inner peripheral surface 210.

According to the demonstration of the preferred embodiment, at least one adjusting joint 30 can be moved into the pressed-in position or into the rest position. When the user puts the finger into the through hole 250, the spring 40 is pressed according to the size of the finger, the adjusting joint 30 stays at the proper position, and the inner peripheral surface 310 of the adjusting joint 30 is pressed down to the user's finger properly by the elastic force of the spring 40. The finger ring with the proper size can help to show the jewel and can also prevent the finger ring from shaking left and right or falling off.

Fig. 10 shows a side view of an alternative adjustable ring 10 of the present invention. The slot 260 is shown disposed in the lower half of the ring inner peripheral surface 210. At least one adjustment joint 30 is also provided in the slot 260 in the lower half of the ring inner peripheral surface 210. Other configurations and operating principles are possible as in the preferred embodiment, except for the location of the slot 260.

Fig. 11 and 12 are perspective views of an alternative spring 40 according to the present invention. Fig. 11 shows an alternative spring 40 of the present invention. The spring 40 is formed in the shape of a loop coil 440 from a strip of wire by connecting the connecting portion 410 to the pushing portion 420. The connecting portion 410 is inserted into the insertion housing 370 of the adjustment joint 30. According to this embodiment, the insert housing 370 is cylindrical and may fit a cylindrical spring 40.

Fig. 13 shows an adjustable ring 10 according to a secondary embodiment, primarily comprising a primary ring 20, a secondary adjustment knuckle 50 and a spring 40. Master ring 20 has an inner ring peripheral surface 210, an outer ring peripheral surface 220, a front surface 230, a back surface 240, and a through-hole 250 formed by the space enclosed by the inner ring peripheral surface. The back surface 240 is disposed opposite the front surface 230. The faces of the master ring 20 are the same as in the preferred embodiment.

Figure 14 shows a cross-sectional side view of primary ring 20 according to a secondary embodiment. The ring inner peripheral surface 210 includes a slot 260, the slot 260 being disposed in the upper half of the ring inner peripheral surface 210. The inner wall surface 270 of the ring outer peripheral surface 220 is exposed through the slits 260 provided in the ring inner peripheral surface 210.

Fig. 15 shows another perspective view of the adjustable ring 10 according to a secondary embodiment. The visualization slot 260 may provide space for stowing the secondary adjustment joint 50.

Fig. 16-18 show side views of a secondary adjustment joint 50 according to a secondary embodiment. According to a secondary embodiment, the secondary adjustment joint 50 can be moved up and down so as to be moved to a pressed-in position or a rest position. The secondary adjustment joint 50 may be housed in a slot 260 in the ring inner peripheral surface 210. The secondary adjustment joint 50 is connected to the main ring 20 by a simple sliding mechanism structure, so that the secondary adjustment joint 50 can move up and down. The secondary adjustment joint 50 has an inner adjustment joint peripheral surface 310 and an outer adjustment joint peripheral surface 320. According to a secondary embodiment, the spring 40 utilizes a simple compression spring design. One end of the spring 40 is connected to the adjustment joint outer peripheral surface 320 of the secondary adjustment joint 50. The other end of the spring 40 is attached to the inner wall surface 270. When in the pressed-in position, the spring 40 is compressed causing the secondary adjustment knuckle 50 to slide upward, fully stowing the secondary adjustment knuckle 50 within the slot 260 of the ring inner peripheral surface 210, as shown in fig. 17. Fig. 18 shows that when in the rest position, the uncompressed spring 40 naturally pushes against the inner wall surface 270 due to the elasticity of its own mass, extending the secondary adjustment joint 50 beyond the ring inner peripheral surface 210.

According to an illustration of a secondary embodiment, the secondary adjustment joint 50 may be maneuvered to a pressed-in position or a resting position. When the user inserts the finger into the through hole 250, the spring 40 is pressed according to the size of the finger, the secondary adjustment joint 50 stays at a proper position, and the inner peripheral surface 310 of the adjustment joint of the secondary adjustment joint 50 is pressed down to the user's finger properly by the elastic force of the spring 40. The finger ring with the proper size can help to show the jewel and can also prevent the finger ring from shaking left and right or falling off.

Claims (12)

1. An adjustable ring, comprising:

a master ring having an inner ring peripheral surface, an outer ring peripheral surface, a front surface, a rear surface, a through-hole formed from the inner ring peripheral surface surrounding space, a slit formed on the inner ring peripheral surface, and

the inner peripheral surface of the ring is provided with at least one adjusting joint, the adjusting joint comprises an inner peripheral surface of the adjusting joint, an outer peripheral surface of the adjusting joint and a spring arranged on the outer peripheral surface of the adjusting joint, the spring pushes the inner peripheral surface of the outer peripheral surface of the ring to an inner wall surface, and the at least one adjusting joint is connected with the master ring and can be moved to a pressing-in position or a rest position;

in the pressed-in position, the at least one adjustment joint is fully stowed in the slot of the ring inner peripheral surface, and in the rest position, the spring extends the at least one adjustment joint beyond the ring inner peripheral surface in a decompressed state.

2. The adjustable ring of claim 1 wherein the at least one adjustment joint is a double number symmetrically disposed along the medial axis of the primary ring.

3. The adjustable ring of claim 2 wherein said at least one adjustment joint is pivotally connected to said master ring.

4. The adjustable ring of claim 3, wherein said outer peripheral adjustment surface of said at least one adjustment joint includes a groove and an insert housing for receiving said spring.

5. The adjustable ring of claim 4 wherein said spring includes a connecting portion and a pushing portion.

6. The adjustable ring of claim 5 wherein said spring is formed from a piece of sheet metal into a V-shape by connecting said connecting portion to said pushing portion.

7. The adjustable ring of claim 5, wherein said spring is formed from a strip of wire, formed into a loop shape by connecting said connecting portion to said pushing portion.

8. The adjustable ring of claim 5 wherein said connecting portion has the same arcuate shape as said adjustment knuckle.

9. An adjustable ring according to any one of claims 1 to 5 wherein said slit is provided in the upper half of the inner peripheral surface of said ring.

10. The adjustable ring according to any one of claims 1 to 5 wherein the slot is provided in a lower half of the inner peripheral surface of the ring.

11. An adjustable ring, comprising:

a master ring having an inner ring peripheral surface, an outer ring peripheral surface, a front surface, a rear surface, a through-hole formed from the inner ring peripheral surface surrounding space, a slit formed on the inner ring peripheral surface, and

the inner peripheral surface of the ring is provided with a secondary adjusting joint, the secondary adjusting joint comprises an inner peripheral surface of the adjusting joint, an outer peripheral surface of the adjusting joint and a spring arranged on the outer peripheral surface of the adjusting joint, the spring pushes the inner wall surface of the outer peripheral surface of the ring, and the secondary adjusting joint is connected with the main ring and can be moved to a pressing-in position or a rest position;

in the pressed-in position, the secondary adjustment joint is fully stowed in the slot of the ring inner peripheral surface, and in the rest position, the spring extends the secondary adjustment joint beyond the ring inner peripheral surface in a decompressed state.

12. The adjustable ring of claim 11 wherein the slit is disposed in an upper half of an inner peripheral surface of the ring.

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